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FFA Production From Triglyceride-Rich Lipoproteins

从富含甘油三酯的脂蛋白生产 FFA

基本信息

批准号：
8282703
负责人：
JOHN M MILES
金额：
$ 38.71万
依托单位：
MAYO CLINIC ROCHESTER
依托单位国家：
美国
项目类别：
财政年份：
2003
资助国家：
美国
起止时间：
2003-05-01 至 2013-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8282703
关键词：
Acute Address Adipocytes Area Atherosclerosis Beds Behavior Therapy Blood Blood Circulation Body Weight decreased Cardiovascular Diseases Chylomicrons Concentration measurement Development Diabetes Mellitus Diet Dietary Fats Dyslipidemias Evaluation Exercise Fatty Acids Fatty acid glycerol esters Functional disorder Health Hypertension Hypertriglyceridemia Indium Individual Infusion procedures Insulin Insulin Resistance Kinetics Laboratories Lipase Lipids Lipolysis Lipoproteins Mediating Metabolism Methods Non-Insulin-Dependent Diabetes Mellitus Nonesterified Fatty Acids Obesity Overweight Pathogenesis Plasma Play Principal Investigator Process Production Regulation Research Research Design Research Personnel Rest Role Source Techniques Tracer Triglycerides Very low density lipoprotein Work absorption blood pressure regulation diabetic fatty acid metabolism in vivo insulin sensitivity lipoprotein lipase non-diabetic particle research study sterol esterase

项目摘要

DESCRIPTION (provided by applicant): The proposed research will continue our work in the area of the regulation of fuel metabolism. Lipid energy is transported in the blood in several forms, including chylomicrons and free fatty acids (FFA). Chylomicrons are key elements in the absorption and storage of dietary fat, and also play a role in the pathogenesis of atherosclerosis via the production of remnant particles, but their role as a direct fuel source has not been explored. FFA are the major lipid fuel in the body, and increases in their concentration have been shown to cause insulin resistance, endothelial dysfunction and increases in the production of very low density lipoproteins. FFA are released into the blood through the action of hormone sensitive lipase on triglyceride stores in fat cells. Very little is known about the role of chylomicrons in FFA metabolism, but the potential contribution of chylomicrons to FFA is considerable, especially in people who consume high fat diets. Initial studies indicate that in addition to the role of chylomicrons in fat storage, a portion of chylomicron fatty acids are released as FFA in a process called "spillover". These studies indicate that the contribution of chylomicrons to FFA is increased in type 2 diabetes. A study of spillover in the splanchnic bed found very high rates of splanchnic spillover in overweight and obese individuals with hypertriglyceridemia. Extremely accurate and precise methods have been developed by the investigator for the measurement of the concentration and specific activity of FFA and chylomicron triglyceride fatty acids in plasma. In addition, a tracer method for accurately determining the kinetics of chylomicrons has been developed. In the proposed studies, the tracer technique will be used to systematically investigate the contribution of chylomicrons to total FFA availability. The technique will be applied to normal subjects at rest and after exercise, as well as subjects with type 2 diabetes mellitus and hypertriglyceridemia. Specifically, these studies will: 1) determine whether weight loss in people with type 2 diabetes reduces spillover from chylomicrons; 2) determine whether acute lowering of FFA with insulin infusion reduces spillover in nondiabetic individuals with dyslipidemia; 3) determine whether noninsulin-mediated lowering of FFA reduces spillover in diabetic individuals with dyslipidemia, and 4) determine whether obese, insulin-resistant individuals have increased spillover in the splanchnic bed. PUBLIC HEALTH RELEVANCE: Elevated free fatty acids levels (FFAs) in blood are a recognized cause of insulin resistance and may contribute to the development of diabetes, high blood pressure and cardiovascular disease. Dietary fat may contribute to FFAs by a process known as "spillover", which occurs during fat storage. This work is a comprehensive evaluation of the importance of spillover as a contributor to FFAs.

描述（由申请人提供）：拟议的研究将继续我们在燃料代谢调节领域的工作。脂质能量以几种形式在血液中转运，包括乳糜微粒和游离脂肪酸（FFA）。乳糜微粒是吸收和储存膳食脂肪的关键因素，也通过产生残余颗粒在动脉粥样硬化的发病机制中发挥作用，但其作为直接燃料来源的作用尚未被探索。FFA是体内主要的脂质燃料，其浓度的增加已被证明会导致胰岛素抵抗、内皮功能障碍和极低密度脂蛋白产生的增加。FFA通过激素敏感脂肪酶对脂肪细胞中甘油三酯储存的作用释放到血液中。关于乳糜微粒在FFA代谢中的作用知之甚少，但乳糜微粒对FFA的潜在贡献是相当大的，特别是在食用高脂肪饮食的人中。初步研究表明，除了乳糜微粒在脂肪储存中的作用外，一部分乳糜微粒脂肪酸在称为“溢出”的过程中以FFA形式释放。这些研究表明，乳糜微粒对FFA的贡献在2型糖尿病中增加。一项内脏床溢出研究发现，患有高甘油三酯血症的超重和肥胖个体的内脏溢出率非常高。研究者已开发出非常准确和精密的方法，用于测量血浆中FFA和乳糜微粒甘油三酯脂肪酸的浓度和比活度。此外，还建立了一种准确测定乳糜微粒动力学的示踪方法。在拟议的研究中，将使用示踪技术系统地研究乳糜微粒对总FFA可用性的贡献。该技术将应用于休息和运动后的正常受试者，以及2型糖尿病和高血糖症受试者。具体而言，这些研究将：1）确定2型糖尿病患者的体重减轻是否减少乳糜微粒的溢出; 2）确定胰岛素输注急性降低FFA是否减少非糖尿病血脂异常个体的溢出; 3）确定非胰岛素介导的FFA降低是否减少患有血脂异常的糖尿病个体中的溢出，和4）确定是否肥胖，胰岛素抵抗的个体增加了内脏床的溢出。公共卫生关系：血液中游离脂肪酸（FFA）水平升高是胰岛素抵抗的公认原因，并可能导致糖尿病，高血压和心血管疾病的发展。膳食脂肪可能通过一种称为“溢出”的过程产生游离脂肪酸，该过程发生在脂肪储存期间。这项工作是对外溢作为一种促进外国直接投资的因素的重要性的全面评价。